Graphene-Based Composite for Carbon Capture

Junita, Tri Komala; Syakir, Norman; Faizal, Ferry; Fitrilawati,

doi:10.1021/acsomega.3c08722

ACS Omega

2024

DOI: 10.1021/acsomega.3c08722

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Graphene-Based Composite for Carbon Capture

Tri Komala Junita,

Norman Syakir,

Ferry Faizal

et al.

Abstract: The current energy system is based largely on fossil fuels that emit carbon dioxide (CO 2 ) and contribute to global climate change. Global energy demand is expected to increase, with growth approximately doubled by the year 2050 and tripled by the end of the century. Therefore, research and development on emissions management and carbon cycle solutions that meet energy sustainability is critical to reduce the effects of global warming. The key point of this literature review is the selection of suitable mater… Show more

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Cited by 3 publications

References 68 publications

(207 reference statements)

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Carbon-based adsorbents for CO2 capture: A systematic review

Deng,

Li,

et al. 2024

Journal of Industrial and Engineering Chemistry

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Carbon-based adsorbents for CO2 capture: A systematic review

Deng,

Li,

et al. 2024

Journal of Industrial and Engineering Chemistry

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Zinc Ferrite/Amine-Functionalized reduced graphene oxide nanocomposites for High-Efficiency CO2 separation

Naderi,

Ghaemi

2025

Separation and Purification Technology

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Study Effect of rGO Addition on Photocatalytic Activity of TiO₂ in Reducing Carbon Dioxide Using Electrochemical Method

Junita,

Faizal,

Syakir

et al. 2024

J. Phys.: Conf. Ser.

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Increasing the carbon dioxide (CO2) concentration every year can cause various environmental problems. One of the technologies to reduce CO2 is carbon capture. The semiconductor of TiO2 is widely used as a photocatalyst to reduce CO2. However, TiO2 has limitations in absorbing light in the visible region because it has a large band gap value. Besides, TiO2 has a fast recombination of electron-hole pairs so it can reduce photocatalytic activity. An addition of rGO is expected to cover the shortcomings of TiO2 because rGO has good conductivity and a small band gap. We synthesized rGO-TiO2 photocatalyst and measured its activity in capturing and converting CO2 using an electrochemical method. By using voltage difference as an electron driver in reacting with CO2 we observe the reaction between electrons and CO2. The measurements were carried out under irradiated and unirradiated conditions. The CV measurements show that the rGO-TiO2 electrode with 60% rGO content has reduction and oxidation peaks. Based on the electrochemical half-reaction table, the reduction peaks in unirradiated conditions indicate the conversion of CO2 to CH4 and (COOH)2, while under irradiated the reduction peak indicates the formation of HCOO− and CH2CH2. The results show that by using the rGO-TiO2 composite as an electrode not only reduces CO2 but also converts the CO2 into hydrocarbon.

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Graphene-Based Composite for Carbon Capture

Cited by 3 publications

References 68 publications

Carbon-based adsorbents for CO2 capture: A systematic review

Carbon-based adsorbents for CO2 capture: A systematic review

Zinc Ferrite/Amine-Functionalized reduced graphene oxide nanocomposites for High-Efficiency CO2 separation

Study Effect of rGO Addition on Photocatalytic Activity of TiO₂ in Reducing Carbon Dioxide Using Electrochemical Method

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About

Graphene-Based Composite for Carbon Capture

Cited by 3 publications

References 68 publications

Carbon-based adsorbents for CO2 capture: A systematic review

Carbon-based adsorbents for CO2 capture: A systematic review

Zinc Ferrite/Amine-Functionalized reduced graphene oxide nanocomposites for High-Efficiency CO2 separation

Study Effect of rGO Addition on Photocatalytic Activity of TiO2 in Reducing Carbon Dioxide Using Electrochemical Method

Contact Info

Product

Resources

About

Study Effect of rGO Addition on Photocatalytic Activity of TiO₂ in Reducing Carbon Dioxide Using Electrochemical Method